Paul Human scite author profile

The histological study of arteries with implanted metallic scaffolding devices, known as stents, remains a technical challenge. Given that the arterial response to stent implantation can sometimes lead to adverse outcomes, including the re-accumulation of tissue mass within the stent (or in-stent restenosis), overcoming these technical challenges is a priority for the advancement of research and development in this important clinical field. Essentially, the task is to section the stent-tissue interface with the least amount of disruption of tissue and cellular morphology. Although many methacrylate resin methodologies are successfully applied toward the study of endovascular stents by a variety of research laboratories, the exact formulations, as well as subsequent processing and sectioning methodology, remain largely coveted. In this paper, we describe in detail a methyl methacrylate resinembedding methodology that can successfully be applied to tungsten carbide blade, as well as saw and grinding sectioning methods and transmission electron microscopy. In addition, we present a comparison of the two sectioning methodologies in terms of their effectiveness with regard to morphological, histochemical, and immunohistochemical analyses. This manuscript contains online supplemental material at http://www.jhc.org . Please visit this article online to view these materials.

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Paul Human

Prosthetic vascular grafts: Wrong models, wrong questions and no healing

The selective modulation of endothelial cell mobility on RGD peptide containing surfaces by YIGSR peptides

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Problem Solving as a Basis for Reform in Curriculum and Instruction: The Case of Mathematics

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Characterization of the immune response to valve bioprostheses and its role in primary tissue failure

Bioprosthetic Tissue Degeneration Inflammatory and Immune Processes: The Neglected Villain of Bioprosthetic Degeneration?

Comparison of Processing and Sectioning Methodologies for Arteries Containing Metallic Stents

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